Kinetics study on leaching of rare earth and aluminum from polishing powder waste using hydrochloric acid
作者:Xitao Wu,Zhijian Wang,Chuping Xia,Xuefeng Shi,Tianzong Luo,Xinjun Bao,Rongli Liu,Shengzhong Xie
摘要:In this study,a novel hydrometallurgical process consisting of hydrochloric acid three-stage countercurrent leaching and solvent extraction was proposed to recover rare earth oxide(REO)from the rare earth polishing powder waste(REPPW).The effects of HCl concentration,liquid-solid ratio(L/S ratio),temperature and time on the leaching yields of rare earths(in REO)and aluminum(in Al2O3)were studied.The result shows that the leaching yields of REO and Al2O3 are 90.96%and 43.89%respectively under the optimum leaching parameters of HCl concentration=8.00 mol/L,L/S ratio=4 mL/g,leaching temperature=353 K and leaching time=180 min.Meanwhile,the leaching kinetics of REO and Al2O3 were investigated in this study.The leaching behaviors of REO and Al2O3 follow a shrinking sphere/core model and the general leaching process is controlled by the surface chemical reaction.The leaching activation energies of REO and Al2O3 are 9.86 and 13.68 kJ/mol,respectively.The leaching yield of each substance in three-stage countercurrent leaching is improved substantially compared with single-stage leaching,with a change from 90.96%to 95.38%for REO and from 43.89%to 46.22%for Al2O3,respectively.Especially,the total concentration of REO in three-stage countercurrent leaching solution is greatly increased to above 300 g/L,and the acidity of which is decreased to ca.pH=2,which is conducive to subsequent solvent extraction directly.High purity REO(99.92%)is obtained by solvent extraction separation,oxalate precipitation and calcination.The total recovery yield of REO is 85.13%.
發文機構:Hunan Rare Earth Metal Material Research Institute School of Chemistry and Chemical Engineering Hunan Nonferrous Metals Vocational and Technical College
關鍵詞:RareearthpolishingpowderwasteREPPWThree-stagecountercurrentleachingSolventextractionKineticsstudyTHERMODYNAMICS
分類號: X70[環境科學與工程—環境工程]TF845[冶金工程—有色金屬冶金]
CSCD- Magnetic properties enhancement of hot-deformed NdFeB magnets by two different methods of CeNdCu diffusion
- Recent advances on rare earths in solid lithium ion conductors
- Enhanced hydrogen storage performance of Mg-Cu-Ni system catalyzed by CeO2 additive
- A downshifting Eu^3+doped glass embedded with concave pyramid microstructure to improve the efficiency of silicon solar cell
- A two-parameter model for ion exchange process of ion-adsorption type rare earth ores
- Effect of tungsten oxide on ceria nanorods to support copper species as CO oxidation catalysts
- Comparative study of La(1-x)CexMnO(3+δ) perovskites and Mn-Ce mixed oxides for NO catalytic oxidation
- Effective rare earth extraction from Nd-Fe-B waste by liquid cuprum extraction method
- Effect of calcination temperature on steam reforming activity of Ni-based pyrochlore catalysts
- Tunable luminescence in co-doped Zn3Al2Ge2O10:Cr3+by controlling crystal field splitting and nephelauxetic effect